References
A.P.G. (1998). An ordinal classification for the families of flowering plants. Ann Missouri Bot Gard 85: 531–553.
A.P.G. (2003). An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG II. Bot J Linnean Soc 141: 399–436.
A.P.G. (2009). An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG III. Bot J Linnean Soc 161: 105–121.
Abo El-Enain, M. M. and Loutfy, M. H. A. (1999). SDS-PAGE of seed proteins and SEM of seed coat surface in Caesalpinia gilleisii, C. pulchrima, C. sepiaria and Delonix regia (Leguminosae: Caesalpinioideae) Takholmia, 19 : 37–52.
Abo El-Enain, M. M.; Khalifa, S. F. and Mohamed, M. N. (2007). Elctrophoretic characterization in some species of Cassia Senso lato seed proteins and its systematic implications. Taeckholmia 27: 41– 59.
Aloni, R.; Schwalm, K.; Langhans, M. and Ullrich, C. I. (2003). Gradual shifts in sites of free-auxin production during leaf primordium development and their role in vascular differentiation and leaf morphogenesis in Arabidopsis. Planta 216: 841–853.
Amaral, W. (2001). Characterization, evaluation and conservation of forest genetic resources: The potential and limitation of new biotechnology tools. In: Uma, S. R.; Ganeshaiah, K.N. and Bawa, K.S. (Eds.). Forest Genetic Resources: Status, Threats and Conservation Strategies, Oxford and IBH Publishing Co., New Delhi. pp. 115–125.
Aradhya, M. K.; Kee, L. K.; Zee, F. T. and Manshardt, R. M. (1998). Genetic variability in Macadamia. Genetic Resources and Crop Evolution 45: 19–32.
Avsian-Kretchmer, O.; Cheng, J. –C.; Chen, L. J.; Moctezuma, E. and Sung, Z. R. (2002). Indole acetic acid distribution coincides with vascular differentiation pattern during Arabidopsis leaf ontogeny. Plant Physiol 130: 199–209.
Ayodele, A. E. and Olowokudejo, J. D. (2006). The family Polygonaceae in West Africa: Taxonomic significance of leaf epidermal characters. South African Journal of Botany 72: 442–459.
Bailey, I. W. and Nast, C. G. (1948). Morphology and relationships of Illicium, Schisandra, and Kadsura. I. Stem and leaf. Journal of the Arnold Arboretum 29: 77–89.
Bailey, L. H. (1935). The Standard Cyclopedia of Horticulture. The Macmillan Company, New York.
Bailey, L. H. (1949). Manual of Cultivated Plants. The Macmillan Company, New York.
Bailey, L. H. and Bailey, E. Z. (1976). Hortus Third. A Concise Dictionary of Cultivated Plants in the United States and Canada. Macmillan Company, New York.
Bekessy, S. A.; Allnutt, T. R.; Premoli, A. C.; Lara, A.; Ennos, R. A.; Burgman, M. A.; Cortes, M. and Newton, A. C. (2002). Genetic variation in the vulnerable and endemic Monkey Puzzle tree, detected using RAPDs. Heredity 88: 243–249.
Belaj, A.; Satovic, Z.; Trujillo, I. and Rallo, L. (2004). Genetic relationships of Spanish olive cultivars using RAPD markers. Hort Science 39: 948 –951.
Benson, L. (1957). Plant Classification. Health and Company, Boston, Massachusetts, USA.
Bentham, G. (1871). Revision of the genus Cassia. Soc. London. 27: 503-593.
Bentham, G. and Hooker, J. D. (1862). Genera Plantarum. 1: 57–102. Reeve, London.
Bentham, G. and Hooker, J. D. (1883). Genera Plantarum. 1: 562–588. Reeve, London.
Berry, E. W. (1916). The lower Eocene floras of southeastern North America. United States Geological Survey Professional Paper, 91:1-481
Bessega, C.; Saidman, B. O. and Vilardi, J. C. (2000). Isozyme and RAPD studies in Prosopis glandulosa and P. velutina (Leguminosae, Mimosoideae).Genetics and Molecular Biology. 23(3): 639-648.
Bessey, C. E. (1915). The phylogenetic taxonomy of flowering plants. Ann Mo Bot Gard 2: 109–164.
Booy, G. and Van Raamsdonk, L. W. D. (1998). Variation in the enzyme esterase within and between Tulipa species; usefulness for the analysis of genetic relationships at different taxonomical levels. Biochemical Systematics and Ecology 26: 199–224.
Boulos, L. (1999). Flora of Egypt. Vol. 1 (Azollaceae-Oxalidaceae ). Al Hadara publishing, Cairo, Egypt.
Brandis, D. (1911). Indian Trees: An account of trees, shrubs, woody, climbers, bamboos and palms. Indogenous or commonly cultivated in the British Indian. Empir. London constable and company ltd.
Brenan, J. P. M. (1967). Flora of Tropical East Africa. In E. Milne-Redhead & R. M. Polhill (eds.) Leguminosae Part (2) Subfamily Caesalpinioideae. Royal Botanic Gardens, Kew.
Bircher, H. W. (1960). Gardens of the Hesprides. A Book on Old and New Plants for Egypt and Similar Climes. Cairo.
Britton, N. L. and Rose, J. N. (1930). Caesalpiniaceae. North Amer Flora 23: 201–304.
Buckley, D. P.; O’Malley, D. M.; Aspit, V.; Prance, G. T. and Bawa, K. S. (1988). Genetics of Brazil nut (Bertholletia excelsa). 1. Genetic variation in natural populations. Theoretical and Applied Genetics 76: 923–928.
Burkart, A. (1952). Legume. Argent. Ed 2: 1–569.
Buso, G. S. C.; Rangel, P. H. and Ferreira, M. E. (1998). Analysis of genetic variability of South American wild rice populations (Oryza glumaepatula) with isozymes and RAPD markers. Molecular Ecology 7: 107–117.
Calvillo-Canadell, L. and Cevallos-Ferriz, S. R. S. (2002). Bauhcis moranii gen. et sp. nov. (Cercideae, Caesalpinieae), an Oligocene plant from Tepexi de Rodr
.guez, Puebla, Mex., with leaf architecture similar to Bauhinia and Cercis. Review of Palaeobotany and Palynology 122: 171–184.
Cardoso, M. A.; Provan, J.; Powell, W.; Ferreira, P. C. G. and De Oliveira, D. E. (1998). High genetic differentiation among remnant populations of the endangered Caesalpinia echinata Lam. (Leguminosae- Caesalpinioideae). Mol Ecol 7: 601–608.
Cardy, B. J. and Beversdorf, W. P. (1984). Identification of soybean cultivars using isoenzyme electrophoresis. Seed Science and Technology 12: 943–954.
Carlier, J. D.; Reis, A.; Duval, M. F.; Conppens, G. and Leitao, J. M. (2004). Genetic maps of RAPD, AFLP, and ISSR markers in Ananas bracteatus and Ananas comosus using the pseudo-testcross strategy. Plant Breeding 123: 186–192.
Carpenter, K. J. (2005). Stomatal architecture and evolution in basal angiosperms. Am j Bot 92(10): 1595–1615.
Chalmers, K. J.; Waugh, R.; Sprent, J. I.; Simons, A. J. and Powell, W. (1992). Detection of genetic variation between and within populations of Gliricidia sepium and G. maculata using RAPD markers. Heredity 69: 465–472.
Chamberlain, J. R. (1998). Isozyme variation in Calliandra calothyrsus (Leguminosae); its implication for species delimitation and conservation. Am j Bot 85: 37–47.
Chamberlain, J. R.; Galwey, N. W. and Simons, A. J. (1996). Population structure in Gliricidia sepium (Leguminosae) as revealed by isozyme variation. Silvae Genetica 45: 112–118.
Chase, M. R.; Boshier, D. H. and Bawa ,K. S. (1995). Population genetics of Cordia alliodora (Boraginaceae), a neotropical tree. 1. Genetic variation in natural populations. Am j Bot 82: 468–475.
Christophel, D. C. and Rowett, A. I. (1996). Leaf and cuticle atlas of Australian leafy Lauraceae. Flora Australian 6: 150–182.
Cronn, R.; Brothers, M.; Klier, K.; Bretting, P. K. and Wendel, J. F. (1997). Allozyme variation in domesticated sunflower and its wild relatives. Theoretical and Applied Genetics 95: 532–545.
Cronquist, A. (1968). The Evolution and Classification of Flowering Plants. Nelson and Sons, London.
Cronquist, A. (1981). An Integrated System of Classification of Flowering Plants. Colombia University Press. New York.
Cronquist, A. (1988). The Evolution and Classification of Flowering Plants second edition. The New York Botanical Garden, New York.
Dahlgren, R. (1983). A system of classification of the angiosperms to be used to demonstrated the distribution of characters. Bot Not 128: 119–147.
Davis, J. I. and Goldman, D. H. (1993). Isozyme variation and species delimitation among diploid populations of the Puccinellia nuttalliana complex (Poaceae): character fixation and the discovery of phylogenetic species. Taxon 42: 585–599.
Davis, J. I. and Nixon, K. C. (1992). Populations, genetic variation and the delimitation of phylogenetic species. Systematic Biology 41: 421–435.
Dawson, I. K. and Powell, W. (1999). Genetic variation in the Afromontane tree Prunus africana, an endangered medicinal species. Mol Ecol 8: 151–156.
De candolle, A. (1825). Systematic naturalis regne vegetalis Vol. 2, Paris.
Degen, B.; Caron, H.; Bandou, E.; Maggia, L.; Chevallier, M. H.; Leveau, A. and Kremer, A. (2001). Fine-scale spatial genetic structure of eight tropical tree species as analysed by RAPDs. Heredity 87: 497–507.
Diallo, B. O.; Joly, H. I.; Mckey, D.; Hossaert-Mckey, M. and Chevallier, M. H. (2007). Genetic diversity of Tamarindus indica populations: Any clues on the origin from its current distribution? African Journal of Biotechnology 6 (7): 853–860.
Dianxiang, Z. (1994). Leaf venation of Cercideae (Leguminosae). Journal of Tropical and Subtropical Botany 2 (4): 45–57.
Dilcher, D. L. (1974). Approaches to the identification of angiosperm leaves. Bot Rev 40: 1–157
Donner, T. J. and Scarpella, K. (2009). Auxin-transport-dependent leaf vein formation. Can J Bot 87 (7): 678–684.
Doyle, J. A.; Ballenger, E. E.; Dickson, T. K. and Ohashi, H. (1997). A phylogeny of the chloroplast gene rbcL in the Leguminosae: taxonomic correlations and insights into the evolution of nodulation. Am j Bot 84: 541–554.
Duke, J. A. (1949). Legume. Amaz Brazil., Bol. Tecn. Inst. Agron. De Northe. 18: 146–152.
Duke, J. A. (1980). Handbook of Legumes of World Economic Importanc. Plenum, New York.
Dunn, G. and Everitt, B. (1982). An Introduction to Mathematical Taxonomy. Cambridge. Newyork.
Edeoga, H. O. and Ikem, C. I. (2001). Comparative Morphology of the leaf epidermis in three species of Boerhavia (Nyetaginaceae). J Pl Anat Morph 1: 14−21.
Edeoga, H. O. and Osawe, P. I. (1996). Cuticular studies of some Nigerian species of Senna Tourn Ex Mill (Syn. Cassia Tourn ExL.); Leguminosae– Caesalpinioideae. Acta phytotax. Geo bot 47 (1): 41–46.
El-Azab, H. (2005). The pollen morphology of certain Leguminosae (Subfamily: Mimosoideae) and its sharing in the taxonomy of the studied taxa. Ph.D. Thesis, Botany Dep. Fac. of Sci. Ain Shams Univ. Egypt.
El-Gazzar, A.; El-Saied, A.; Hammouda, A. and Soliman, M. (2008). Computer-generated Keys to the Flora of Egypt. 1. The Leguminosae (Mimosoideae and Caesalpinioideae). Tackholmia 28: 185-208
Elisens, W. J. and Nelson, A. D. (1993). Morphological and isozyme divergence in Gambelia (Scrophulariaceae): species delimitation and biogeographic relationships. Systematic Botany 18: 454–468.
Emberger, L. (1960). Les vegetaux vasculaires. Tome Fascicule II : 1398–1406.
Engler, A. (1964). Syllabus Der Pflanzenfamilien. (II). Berlin.
Engler, A. and Diels, L. (1936). Syllabus Der Pflanzenfamilien Gebruder Brontrager. (II). Berlin.
Ettingshausen, C. V. (1861). Die Blattskelete des Dicotyledonen. K. Hof. Staatsdruckeri, Vienna
Fawzy, A. M. (2004). Rapd and Isozyme Study of the Newly Recorded Macroptilium Species in Egypt. Proceeding of First Conference on Strategy of Egyptian Herbaria March 9-11, pp 117-127, Giza, Egypt.
Ferzana, J.; Prabhakar, M. and Leelavathi, P. (1991). Folia architecture in relation to taxonomy of Malvales. Asian J Pl Sci 3 (2): 17–53.
Foster, A. S. (1952). Morphology and leaf venation of the leaf in Quiina acutangula Ducke. Am J Bot 37: 159–171.
Foster, A. S. and Gifford, Jr. E. M. (1974). Comparative Morphology of Vascular Plants. W.H. Freeman and Company, San Francisco.
Fukuda, H. (2004). Signals that control plant vascular cell differentiation. Nat Rev Mol Cell Biol 5: 379–391.
Gauthier, P.; Lumaret, R. and Beadea, A. (1998). Genetic variation and gene flow in Alpine diploid and tetraploid populations of Lotus (L. alpinus D.C.) Schleicher/L. corniculatus L). I. Insights from morphological and allozyme markers. Heredity 80: 683–693.
Gillies, A. C. M.; Cornelius, J. P.; Newton, A. C.; Navarro, C.; Hernandez, M. and Wilson, J. (1997). Genetic variation in Costa Rican populations of the tropical timber species Cedrela odorata L., assessed using RAPDs. Mol Ecol 6: 1133–1145.
Goebel, K. (1905). Organography of Plants. Part II. Oxford
Gorman, M. B. and Kiang, Y. T. (1977). Variety-species electrophoretic variants of four soybean enzymes. Crop Science 17: 963–965.
Gottlieb, L. D. (1977). Electrophoretic evidence and plant systematics. Ann Missouri Bot Gard 64: 161–180.
Graf, A. B. (1981). Color Cyclopedia of Exotic Plants and Trees for Warm Region Horticuture- in Cool Climate the Summer Garden of Sheltered Indoors. 2nd edition USA.
Gupta, P. K. and Rustgi, S. (2004). A review, molecular markers from the transcribed/expressed region of genome in higher plants. Functional Integrative Genomic 4: 139–162.
Guyot, M. (1971). Phylogenetic and systematic value of stoma in the umbillifereae. In: Heywood, V. H., The Biology and Chemistry of Umbelliferae. London: Academic Press.
Hall, P.; Chase, M. R. and Bawa, k. S. (1994). Low genetic variation but high population differentiation in a common tropical forest tree species. Conservation Biology 8: 471–482.
Hallier, H. (1912). L’origin et le systeme phyletique des angiospermes. Arch Neerl Sci Extact Nat Ser III B, 1: 146-334.
Hamrick, J. L. and Murawski, D. A. (1991). Levels of allozyme diversity in populations of uncommon neotropical tree species. Journal of Tropical Ecology 7: 395–399.
Hamrick, J. L. and Godt, M. J. W. (1989). Allozyme diversity in plant species. In: Brown, A.H.D.; Clegg, M.T.; Kahler, A.L. and Weir, B.S. (Eds.). Plant Population Genetics, Breeding and Genetic Resources. Sinauer Associates, Sunderland.
Harris, S. A.; Hughes, C. E.; Abbott, R. J. and Ingram, R. (1994). Genetic variation in Leucaena leucocephala (Lam) de Wit. (Leguminosae: Mimosoideae). Silvae Genetica 43: 159–167.
Haufler, C. H. (1987). Electrophoresis is modifying our concepts of evolution in homosporous pteridophytes. Am J Bot 74: 953–966.
Heaton, H. J.; Whitkus, R. and Gomez-Pompa, A. (1999). Extreme ecological and phenotypic differences in the tropical tree chicozapote (Manilkara zapota (L.) Royen P) are not matched by genetic divergence: a random amplified polymorphic DNA (RAPD) analysis. Mol Ecol 8: 627–632.
Hedegart, T. (1976). Tropical trees variation, breeding and conservation. In: Burley J, Styles BT (Eds.). Linnean Society Symposium Series No 2. Oxford University. pp. 109 –121.
Herendeen, P. S.; Bruneau, A. and Lewis, G. P. (2003). Phylogenetic relationships in caesalpinioid legumes: a preliminary analysis based on morphological and molecular data. Advances in legume systematics, part 10, pp.37–62. Royal Botanic Gardens, Kew, UK.
Hickey, L. J. (1971)b. Evolutionary significance of leaf architectural features in the woody dicots. Am J Bot 58: 469.
Hickey, L. J. (1973). Classification of the architecture of dicotyledonous leaves. Am J Bot 60: 17–33.
Hickey, L. J. (1979). A revised classification of the architecture of dicotyledonous leaves. In: Metcalfe, C.R. and Chalk, L., (eds). Anatomy of the dicotyledons, 2nd edn. Vol. I, Systematic anatomy of the leaf and stem. Oxford: Clarendon Press, pp. 25–39.
Hickey, L. J. and Taylor, D. W. (1991). The leaf architecture of Ticodendron and the application of foliar character in discerming its relationships. Ann Miss Bot Gard 78: 105–130.
Hickey, L. J. and Wolfe, J. A. (1975). The bases of angiosperm phylogeny: vegetative morphology. Annals of the Miss Bot Gard 62: 538–590.
Hollick, A. (1936). The tertiary floras of Alaska. U.S. Geol. Surv. Prof. Paper 182
Hong, S. P. and Oh, I. C. (1999). The taxonomic study of leaf epidermal microstructure in the genera Polygonum L. s. str. And polygonella Michx. (Polygoneae- Polygonaceae). Kor J Plant Tax 29:75–90.
Hong, S. P. and Son, S. P. (2000). The taxonomy consideration of leaf epidermal microstructure in the tribe Rumiceae Dum. (Polygonaceae. Kor J Plant Tax 30: 105–121.
Hutchinson, J. (1948). Classification of Flowering Plants. British Flowering Plants pp: 221–281 London.
Hutchinson, J. (1967). The Genera of Flowering Plants, Dicotyledons. pp 22–489. Oxford, the Clarendon press.
Hutchinson, J. (1973). The Families of Flowering Plants, 3rd ed. pp. 519–524. Oxford, the Clarendon press.
Hyland, B. P. M. (1989). A Revision of Lauraceae in Australia (excluding Cassytha). Australian J Syst Bot 2: 135–167.
Ipek, M.; Ipek, A. and Simon, P. W. (2003). Comparison of AFLPs, RAPD markers, and isozymes for diversity assessment of garlic and detection of putative duplicates in germplasm collection. Journal of the American Society for Horticulture Science 128: 246–252.
Irwin, H. S. and R. C. Barneby. 1981. The tribe Cassieae. in Advances in legume systematics, part 1. 97-106 (R. M. Polhill and P. H. Raven, eds.). Royal Botanic Gardens, Kew, UK.
Jaaska, V. (1997). Isoenzyme diversity and phylogenetic affinities in Vicia subgenus Vicia (Fabaceae). Genetic Resources and Crop Evolution 44: 557–574.
Jaaska, V. (2001). Isoenzyme diversity and phylogenetic relationships among the American beans of the genus Vigna Savi (Fabaceae). Biochemical Systematics and Ecology 29, 1153–1173
Jacobs, W. P. (1952). The role of auxin in the differentiation of xylem round a wound. Am J Bot 39: 327–337.
Jelani, S.; Leelavathi, P. and Prabhakar, M. (1990). Folia epidermis in relation to Taxonomy of Cleome (Capparaceae). Asian J Pl Sci 2(2):13–24.
Jensen, R. J. (1990). Detecting shape variation in Oak leaf morphology, a comparison of rotational fit methods. Am J Bot 77: 1279–1293.
Jesudass, L.; Manickam, V. S.; Irtudayaraj, V. and Gopalakrishan, S. (2003). Venation pattern of the genus Pteris (Pteridaceae) from the western Chats–South India. Phytomorphol 53: 29–36.
Jonathan, F. W. and Wendel, N. F. (1990). Visualization and interpretation of plant isozyme. In: Isozymes in Plant Biology. D. E. Sdtis and P.S. Sottis (eds). London Champan and Hall, pp. 5–45.
Kadiri, A. B. and Olowokudejo, J. D. (2008). comaparative foliar epidermal morphology of the west African species of the genus Afzelia Smith (Leguminosae: Caesalpinioideae). Gayana Bot 65(1): 84–92.
Kajtta, T.; Ohashi, H.; Tateishi, Y.; Bailey, C. D. and Doyle, J. J. (2001). rbcL and legume phylogeny, with particular reference to Phaseoleae, Millettieae, and allies. Systematic Botany 26: 515–536.
Kerner Von Marilaun, A. J. (1895). The Natural History of Plants. Oliver, F.W. (edt.). Vol. 1. Holt, New York.
Klaas, M. (1998). Applications and impact of molecular markers on evolutionary and diversity studies in Allium. Plant Breeding 117: 297–308.
Klucking, E. P. (1987). Leaf Venation Patterns Vol. 2. Gebruder Borntraeger, Verlagsbuchhandlung.
Kong, H. (2001). Comparative morphology of leaf epidermis in the Chloranthaceae. Botanical Journal of the Linnean Society 136: 279–294.
Kubitziki, K. (1993). The families and genera of vascular plants. Springer Verlag, Italy.
Kumar, A.; Tripathi, V. and Pushpangadan, P. (2007). Random amplified polymorphic DNA as marker for genetic variation and identification of Senna surattensis Burm, f. and Senna sulfurea DC. Ex Collad. Current Science 93(8).
Lakshmikumaran, M.; Srivastava, P. S. and Singh, A. (2001). Application of molecular technologies for genome analysis and assessment of genetic diversity in forest tree species. Oxford and IBH Publishing Co., New Delhi. pp. 153-181.
Lam, H. J. (1925). The Sapotaceae, Sarcospermaceae and Boerlagellaceae of the Dutch East Indies and sourrounding countries. Bull Jord Bot Buitenzorg III 8: 1–289.
Lange, O. and Shifino, M. T. (2000). Isozyme Variation in Wild and Cultivated Species of the Genus Trifolium L. (Leguminosae). Annals of Botany 86: 339–345.
Larmarque, A. L. & Fortunato, R. H. (2003). Taxonomic significance of seed protein profiles in Acacia, with special reference to Acacia emilioana. Australian Systematic Bot. 16 (1) 35-39.
LAWG, (1999). Manual of leaf Architecture. Morphological Description and Categorization of Dicotyledonous and net veined Monocotyledonous Angiosperms. Smithsonian Institution, Washington, D.C., USA.
Lawrence, G. H. M. (1951). Taxonomy of Vascular Plants. pp:545–549. Macmillan Company, New York.
Lee, C. T.; Wickneswari, R.; Mahani, M. C. and Zakri, A. H. (2002). Effect of selective logging on the genetic diversity of Scaphium macropodum. Biol Conser 104: 107–118.
Leelavathi, P.; Ramayya, N. and Prabhakar, M. (1980). Folia stomatal distributiob patterns in the Leguminosae and their taxonomic significance. Phytomorphology 30(2, 3): 195–204.
Léonard, J. (1957). Genera des Cynometreae et des Amhersteae africaines (Leguminosae-Caesalpinioideae). Esai de blastogénie appliquée à la systématique. Mém Acad Roy Sci Belgique Cl Sci 30: 1–312.
Lesquereux, L. (1878). Contributions to the fossil floras of the western Territories. Part II. The Tertiary Flora. U.S. Geol Geog Surv Terr Rept 7
Lewis, G. P.; Schrire, B. and Lock, M. (2005). Legumes of the World. Royal Botanical Gardens, Kew, UK. pp: 591.
Li, H. M. and Hickey, L. J. (1988). Leaf architecture and systematics of the Hamamelidaceae sensu lato. Acta Phytotaxonomica Sinica 26: 96–110.
Linnaeus, C. (1753). Species Plantarum. Vol. 1. Stokholm.
Loutfy, M. H. A.; Karakish, E. A. K.; Khalifa, S.F. and Mira, E. R. A. (2005). Numerical Taxonomic Evaluation of Leaf Architecture of Some Species of Genus Ficus L. International Journal of Agriculture and Biology 7(3): 352–357.
Lowe, A. J.; Gillies, A. C. M.; Wilson, J. and Dawson, I. (2000). Conservation genetics of bush mango from central/west Africa: implications from random amplified polymorphic DNA analysis. Mol Ecol 9: 831–841.
Lu, S.; Zhao, C. and Guo, X. (2009). Venation Skeleton-Based Modeling Plant Leaf Wilting. International Journal of Computer Games Technology, Volume 2009
Martins, M.; Tenreiro, R. and Oliveira, R. (2003). Genetic relatedness of Portuguese almond cultivars assessed by RAPD and ISSR markers. Plant Cell Reporter 22: 71–78.
Metcalfe, C. R. and Chalk, L. (1979). Anatomy of Dicotyledons. Vol. 1. Oxford.
Mattson, J.; Sung, Z. R. and Berleth, T. (1999). Responses of plant vascular systems to auxin transport inhibition. Development 126: 2979–2991.
Melchior, H. (1964). Engler's syllabus Pflanzenfamilien ed. 12: 26–30; 221–240.Berlin.
Melville, R. (1976). The terminology of leaf architecture. Taxon 25: 549–561.
Merriell, E. K. (1978). Comparison of mature leaf architecture of three types in Sorbus L. (Rosaceae). Bot Gaz 139: 447–453.
Mitchison, G. J. (1981). The polar transport of auxin and vein pattern in plants. Philos Trans R Soc London 295: 461–471.
Mohamed, A. H. (2006). Taxonomic Significance of Seed PProteins and Iso-enzymes in Tribulus (Zygophyllaceae). Int J Agri Biol 5: 573–575.
Montasir, A. H. and Hassib, M. (1956). Illustrated Manual Flora of Egypt. Bull Fac Sci Ain Shams Univ Part I, pp. 440–443.
Mouton, J. A. (1966). Sur la systematique foliaire en plaeobotanique. Bull Soc Bot (France), 113: 492–502.
NBPGR (2000). Manual on Exploration and Collection of Plant Genetic Resources and related Indigenous Knowledge. Agrobiodiversity (PGR)-5. National Bureau of Plant Genetic Resources, New Delhi, India. pp 63.
Nixon, K. C. and Wheeler, Q. D. (1990). An amplification of the phylogenetic species concept. Cladistics 6: 211–223.
Nualkaew, S.; Gritsanapan, W. and Suriyapananont, S. (1998). Comparison of isozyme patterns in Cassia species. 24. Congress on Science and Technology of Thailand, Bangkok.
Oliver, D. (1871). Flora of Tropical Africa. Ashford, Kent. Vol.II. pp: 258-312.
Pacheco-Trejo, J.; Terrazas, T. and Ochoterena, H. (2009). Leaf architecture of the genus Didymaea Hook. f. (Rubiaceae). Plant Syst Evol 281:137–149.
Paliwal, G. S. (1966). Structure Ontogeny of Stomata in some Acanthaceae. Phytomorphology 16: 527–532.
Park, K.–W. (1994). A taxonomy study of the Magnoliaceae. Res Rep For Res Inst 50: 173–190.
Peirce, L. C. and Brewbaker, J. L. (1973). Application of isozyme analysis in horticultural science. Hortscience 8: 17–22.
Pettigrew, C. J. and Watson, L. (1977). On the classification of Caesalpinioideae. Taxon 26 (1): 57–64.
Pollhill, R. M. and Raven, P. H. (1983). Advances in Legume Systematics. Parts 1 and 2. Royal Botanic Garden, Kew
Pollhill, R. M.; Raven, P. H. and Stirton, C. H. (1981). Evolution and systematics of the Leguminosae. In R. M. Polhill and P. H. Raven (Eds), Advances in Legume Systematics, Part 1. Royal Botanic Garden, Kew. pp: 1–26.
Post, G. E. (1932). Flora of Syria, Palestina and Sinai. American press Beirut I: 438–442.
Prabhakar, M. (2004). Structure, Delimitation, Nomenclature and Classification of Stomata. Acta Bot Sinica 46(2): 242–252.
Randell, B. R. (1976). The species of Cassia in Australia. Australian plants 8(68): 345–360.
Ray, T. S. (1992). Landmark eigenshape analysis: homologous cotours: leaf shape in Syngonium (Araceae). Am J Bot 79: 69–76.
Rendle, A. B. (1925). The clasification of flowering plants. Vol. II. Pp: 348-366. Cambridge. University press, England.
Rohlf, P. J. (1989). NTSYS-PC. Numerical Taxonomy and Multivariate Analysis Systems. New York: Exeter Publishing.
Roth-Nebelsick, A.; Uhl, D.; Mosbrugger, V. and Kerp, H. (2001). Evolution and Function of Leaf Venation Architecture: A Review Annals of Botany 87: 553–566.
Sack, L.; Cowan, P. D. and Holbrook, N. M. (2003). The hydrology of leaves: co-ordination of structure and function in temperate woody species. Plant, Cell and Environment 26:1343–1356
Samec, P.; Posvec, Z.; Stejskal, J.; Nasinec, V. and Griga, M. (1998). Cultivar identification and relationships in Pisum sativum L. based on RAPD and isozymes. Biologia Plantarum 41: 39–48.
Sanchez, E.; Ortiz, J.M. and Cenis, J.L. (1998). Identification of table grape cultivars (Vitis vinifera L.) by the isoenzymes from the woody stems. Genetic Resources and Crop Evolution 45: 173–179.
Scandalios, J. C. (1964). Tissue-specific isozyme variations in maize. J Hered 55: 281–285.
Schifino-Wittmann, M. T. and Lange, O. (1997). Isoenzymic characterization of native and cultivated forage legume species of Rio Grande do Sul (Southern Brazil). Proceedings of the XVIII International Grass- land Congress, Winnipeg, 47–48.
Schifino-Wittmann, M. T. and Schlegel, M. (1990). Isozyme patterns of Leucaena leucocephala, Leucaena diversifolia and their hybrids selected for acid soil tolerance. Leucaena Research Reports 11: 47–49.
Schifino-Wittmann, M. T.; Freitas, L. H. C. and Simioni, C. (1996). Isoenzymatic characterization of hybrids between Leucaena leucocephala and L. diversifolia subsp. diversifolia grown in Rio Grande do Sul (Southern Brazil). Brazilian Journal of Genetics 19: 475–478.
Schnabel, A, and Hamrick, J. L. (1990). Organization of genetic diversity within and among populations of Gleditsia triacanthos (Leguminosae). Am J Bot 77, 1060–1069.
Seetharam, Y. N. and Kotresha, K. (1998). foliar venation of some species of Bauhinia L. and Hardwickia binata Roxb. (Caesalpinioidea). Phytomorphology 48(1): 51–59.
Senna, H. (1943). The relation of anatomy and cytology to the classification of the Leguminosae. Chrom Bot 7: 306–308.
Shenglian, L.u.; Chunjiang, Z. and Xinyu, G. (2009). Venation Skeleton-Based Modeling Plant Leaf Wilting. International Journal of Computer Games Technology, Volume 2009.
Shipunov, A. B. (2007). The system of flowering plants from a synthetic point of view. J Gen Biol 64: 501–510.
Shipunov, A. B. (2009). Systema angiospermarum http://herba.msu.ru.shipunov/ang/current/syang.pdf
Sieburth, L. E. (1999). Auxin is required for leaf vein pattern in Arabidopsis. Plant Physiol 121: 1179–1190.
Siva, R. and Kirshnamurthy, K. V. (2005). Isozyme diversity in Cassia auriculata L. Afr J Biotechnol 4 (8): 772–775.
Skerman, P. J. (1977). Tropical Forage Legumes. Rome.
Smith, J. P. (1977). Vascular Plant Families. An Introduction to the Families of Vascular Plants Native to North America and Selected Families of Ornamental or Economic Importance Eureka, California.
Sneath, P. H. and Sokal, R. R. (1973). Numerical Taxonomy. Freeman, San Fransisco. p 573.
Sonnante, G.; Spinosa, A.; Marangi, A. and Pignone, D. (1998). Isozyme and RAPD analysis of the genetic diversity within and between Vigna luteola and V. marina. Annals of Botany 80: 741–746.
Stace, C. A. (1965). Cuticular studies as an aid to plant taxonomy. Bulletin of the British Museum (Natural History) Botany 4: 3–78.
Stebbins, G. L., and Khush, G. S. (1961). Variation in the organization of the stomatal complex in the leaf epidermis of monocotyledons and its bearing on their phylogeny. Am j Bot 48: 51–59.
Stegemann, H.; Afifiy, A. M. R. and Hussein, K. R. F. (1985). Cultivar Identification of dates (Phoenix dectylifera) by protein patterns. 2nd international Symposium of Biochemical Approaches to Identification of Cultivars. Braunschweig, West Germany, 44 pp.
Summerfield, R. J. and Bunting, A. H. (1980). Advances in Legume Science. Royal Botanic Gardens, Kew.
Sun, H.; Chen, J.; Zhou, Z. K. and Fei, Y. (1991). The leaf architecture and its taxonomic significance in the genera Albizia and Cylindrokelupha from China. Acta Botanica Yunnanica 13: 241–253.
Täckholm, V. (1956). Student’s Flora of Egypt. ed.1, Beirut
Täckholm, V. (1974). Student’s Flora of Egypt, ed. 2, Cairo University.
Takhtajan, A. (1980). Outline of the classification of flowering plants. Bot Rev 46(3): 225–359.
Takhtajan, A. (1997). Diversity and classification of flowering plants. Bot Rev 64: 240–272.
Taubert, P, (1894). Leguminosae. in A. Engler and K. Prantle, Nat. pflanzenfamilien III. 3: 70–338. Engelmann, Leipzig.
Taubert, P. (1891). Mimosoideae in A. Engler and K. Prantle, Nat. pflanzenfamilien III. 3: 99–125.
Testolin, R. and Ferguson, A. R. (1997). Isozyme polymorphism in the genus Actinidia and the origin of the kiwifruit genome. Systematic Botany 22: 685–700.
Thorne, R. F. (1992). Classification and geography of the flowering plants. Bot Review 58: 225–348.
Tiwari, D. N. (1992). A monograph on Teak. International Book Distributors, Dehradun.
Troll, W. (1938). Vergleichende Morphologie der höheren pflanzen. 1 (2). Borntraeger, Berlin. Reprinted, 1967, Koeltz Koenigstein–Taunus.
Uggla, C.; Moritz, T.; Sandberg, G. and Sundberg, B. (1996). Auxin as a positional signal in pattern formation in plants. Proc Nat Acad Sci USA 93: 9282–9286.
Uma, S.; Sudha, S.; Saraswathi, M. S.; Nickavasagam, M.; Selvarajam, R., Durai, P., Sathiamoorthy, S., Siva, A.S., 2004. Analysis of genetic diversity and phylogenetic relationships among indigenous and exotic Silk (AAB) group of bananas using RAPD markers. Journal of Horticultural Science and Biotechnology 79: 523–527.
Upchurch, G. R. (1995). Dispersed angiosperm cuticles: their history, preparation, and application to the rise of angiosperms in Cretaceous and Paleocene coals, southern western interior of North America. International Journal of Coal Geology 28: 161–227.
Van Cotthem, W. R. J. (1970). A classification of stomatal types. Botanical Journal of the Linnean Society 63: 235–246.
Van Cotthem, W. R. J. (1970)a. Comparative morphological study of the stomata in the Filicopsida. Bull Jard Bot Nat Belg 40: 81–239.
Wang, Y. F.; Ferguson, D. K.; Zetter, R.; Denk, T. and Garfi, G. (2001). Leaf architecture and epidermal characters in Zelkova, Ulmaceae. Botanical Journal of the Linnean Society 136: 255–265.
Wang, X.; Mao, Z.; Choi, K. and Park, K. (2006). Significance of the leaf epidermis fingerprint for taxonomy of Genus Rhododendron. Journal of Forestry Research 17(3): 171–176.
Watson, L. and Dallwitz, M. J. (1983). The Genera of Leguminosae, Caesalpinioideae. pp. 397 Cambridge Univ. Press.
Welsh, J. and McCleland, M. (1990). Fingerprinting genomes using PCR with arbitrary primers. Nucleic Acid Reasearch 18(24): 7231–7218.
Wendel, J. F. and N. F. Weeden (1989). Visualization and interpretation of plant isozymes. In: Isozymes in Plant Biology. Soltis D. E. and P. S. Soltis (eds). Chapman and Hall Publishers, London. P. 18.
Whitty, P. W.; Powell, W. and Sprent, J. I. (1994). Molecular separation of genera in Cassiinae (Leguminosae), and analysis of variation in the noulating species of Chamaecrista. Molecular Ecology 3: 507–515.
Wilkinson, H. P. (1979). The plant surface. In C. R. Metcalfe and L. Chalk [eds.], Anatomy of the dicotyledons, 2nd ed., vol. 1, 97–165. Clarendon Press, Oxford, UK.
Williams, J. G. K.; Kubelik, A. R.; Livak, K. J.; Rafalski, J. A. and Tingey, S. V. (1990). DNA polymorphism amplified by arbitrary primers are useful as genetic markers. Nucleic Acids Research 18(22): 6531–6535.
Willis, J. C. (1966). A Dictionary of Flowering Plants and Ferns (revised by H. K. Airy show), Ed. 7: 627-631 Cambridge university Press.
Wojciechowski, M. F., Lavin, M. and Sanderson, M. J. 2004. A phylogeny of legumes (Leguminosae) based on analysis of the plastid matK gene resolves many well-supported subclades within the family. Am J Bot 91: 1846-1862.
Wunderlin, R.; Larsen, K. and Larsen, S. S. (1981). Cercideae. Pages 107-116 in Advances in legume systematics, part 1 (R. M. Polhill and P. H. Raven, eds.). Royal Botanic Gardens, Kew, UK.
Wunderlin, R.; Larsen, K. and Larsen, S. S. (1987). Reorganizaztion of the Cercideae (Fabaceae: Caesalpinioideae). Biol Skr 28: 1–40.
Yamagishi, M.; Matsumoto, S.; Nakatsuka, A. and Itamura, H. (2005). Identification of persimmon (Diospyros kaki) cultivars and phonetic relationships between Diospyros species by more effective RAPD analysis. Scientia Horticulture 95: 361–371.
Yan, L. and Zhe-Kun, Z. (2002). Leaf architecture in Quercus subgenus Cyclobalanopsis (Fagaceae) from China. Botanical Journal of the Linnean Society 140: 283–295.
Yasmin, G.; Ajabkhan, M.; Shaheen, N. and Hayat, M. (2010). Micromorphological investigation of foliar anatomy of Fagopyrum Mill. and Rumex L. of Polygonaceae. Pak J Bot 42(1): 47-57.
Yu, C. and Chen, Z. (1991). Leaf Architecture of the Woody Dicotyledons from Tropical and Subtropical China. International Academic publishes, Beijing.
Zahuang, F. Y.; Chen, J. F.; Staub, J. E. and Qian, T. (2004). Assessment of genetic relationships among Cucumis spp. by SSR and RAPD marker analysis. Plant Breeding 123: 167–172.
Zhou, Z. K. and Li, H. M. (1994). Implication of the leaf architecture for systematic studies of Chloranthaceae from China. Chinese Journal of Botany 6: 12–18.
Zhou, Z. K.; Wilkinson, H. and Wu, Z. Y. (1995). Taxonomical and evolutionary implications of the leaf anatomy and architecture of Quercus L. subgenus Quercus from China. Cathaya 7: 1– 34.
Zobel, B. and Talbert, J. (1984). Applied forest tree improvement. John Wiley and Sons. pp. 505.
Zou, P.; Liao, J. and Zhang, D. (2008). Leaf epidermal micromorphology of Cercis (Fabaceae: Caesalpinioideae). Botanical Journal of the Linnean Society 158: 539–547.
A.P.G. (1998). An ordinal classification for the families of flowering plants. Ann Missouri Bot Gard 85: 531–553.
A.P.G. (2003). An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG II. Bot J Linnean Soc 141: 399–436.
A.P.G. (2009). An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG III. Bot J Linnean Soc 161: 105–121.
Abo El-Enain, M. M. and Loutfy, M. H. A. (1999). SDS-PAGE of seed proteins and SEM of seed coat surface in Caesalpinia gilleisii, C. pulchrima, C. sepiaria and Delonix regia (Leguminosae: Caesalpinioideae) Takholmia, 19 : 37–52.
Abo El-Enain, M. M.; Khalifa, S. F. and Mohamed, M. N. (2007). Elctrophoretic characterization in some species of Cassia Senso lato seed proteins and its systematic implications. Taeckholmia 27: 41– 59.
Aloni, R.; Schwalm, K.; Langhans, M. and Ullrich, C. I. (2003). Gradual shifts in sites of free-auxin production during leaf primordium development and their role in vascular differentiation and leaf morphogenesis in Arabidopsis. Planta 216: 841–853.
Amaral, W. (2001). Characterization, evaluation and conservation of forest genetic resources: The potential and limitation of new biotechnology tools. In: Uma, S. R.; Ganeshaiah, K.N. and Bawa, K.S. (Eds.). Forest Genetic Resources: Status, Threats and Conservation Strategies, Oxford and IBH Publishing Co., New Delhi. pp. 115–125.
Aradhya, M. K.; Kee, L. K.; Zee, F. T. and Manshardt, R. M. (1998). Genetic variability in Macadamia. Genetic Resources and Crop Evolution 45: 19–32.
Avsian-Kretchmer, O.; Cheng, J. –C.; Chen, L. J.; Moctezuma, E. and Sung, Z. R. (2002). Indole acetic acid distribution coincides with vascular differentiation pattern during Arabidopsis leaf ontogeny. Plant Physiol 130: 199–209.
Ayodele, A. E. and Olowokudejo, J. D. (2006). The family Polygonaceae in West Africa: Taxonomic significance of leaf epidermal characters. South African Journal of Botany 72: 442–459.
Bailey, I. W. and Nast, C. G. (1948). Morphology and relationships of Illicium, Schisandra, and Kadsura. I. Stem and leaf. Journal of the Arnold Arboretum 29: 77–89.
Bailey, L. H. (1935). The Standard Cyclopedia of Horticulture. The Macmillan Company, New York.
Bailey, L. H. (1949). Manual of Cultivated Plants. The Macmillan Company, New York.
Bailey, L. H. and Bailey, E. Z. (1976). Hortus Third. A Concise Dictionary of Cultivated Plants in the United States and Canada. Macmillan Company, New York.
Bekessy, S. A.; Allnutt, T. R.; Premoli, A. C.; Lara, A.; Ennos, R. A.; Burgman, M. A.; Cortes, M. and Newton, A. C. (2002). Genetic variation in the vulnerable and endemic Monkey Puzzle tree, detected using RAPDs. Heredity 88: 243–249.
Belaj, A.; Satovic, Z.; Trujillo, I. and Rallo, L. (2004). Genetic relationships of Spanish olive cultivars using RAPD markers. Hort Science 39: 948 –951.
Benson, L. (1957). Plant Classification. Health and Company, Boston, Massachusetts, USA.
Bentham, G. (1871). Revision of the genus Cassia. Soc. London. 27: 503-593.
Bentham, G. and Hooker, J. D. (1862). Genera Plantarum. 1: 57–102. Reeve, London.
Bentham, G. and Hooker, J. D. (1883). Genera Plantarum. 1: 562–588. Reeve, London.
Berry, E. W. (1916). The lower Eocene floras of southeastern North America. United States Geological Survey Professional Paper, 91:1-481
Bessega, C.; Saidman, B. O. and Vilardi, J. C. (2000). Isozyme and RAPD studies in Prosopis glandulosa and P. velutina (Leguminosae, Mimosoideae).Genetics and Molecular Biology. 23(3): 639-648.
Bessey, C. E. (1915). The phylogenetic taxonomy of flowering plants. Ann Mo Bot Gard 2: 109–164.
Booy, G. and Van Raamsdonk, L. W. D. (1998). Variation in the enzyme esterase within and between Tulipa species; usefulness for the analysis of genetic relationships at different taxonomical levels. Biochemical Systematics and Ecology 26: 199–224.
Boulos, L. (1999). Flora of Egypt. Vol. 1 (Azollaceae-Oxalidaceae ). Al Hadara publishing, Cairo, Egypt.
Brandis, D. (1911). Indian Trees: An account of trees, shrubs, woody, climbers, bamboos and palms. Indogenous or commonly cultivated in the British Indian. Empir. London constable and company ltd.
Brenan, J. P. M. (1967). Flora of Tropical East Africa. In E. Milne-Redhead & R. M. Polhill (eds.) Leguminosae Part (2) Subfamily Caesalpinioideae. Royal Botanic Gardens, Kew.
Bircher, H. W. (1960). Gardens of the Hesprides. A Book on Old and New Plants for Egypt and Similar Climes. Cairo.
Britton, N. L. and Rose, J. N. (1930). Caesalpiniaceae. North Amer Flora 23: 201–304.
Buckley, D. P.; O’Malley, D. M.; Aspit, V.; Prance, G. T. and Bawa, K. S. (1988). Genetics of Brazil nut (Bertholletia excelsa). 1. Genetic variation in natural populations. Theoretical and Applied Genetics 76: 923–928.
Burkart, A. (1952). Legume. Argent. Ed 2: 1–569.
Buso, G. S. C.; Rangel, P. H. and Ferreira, M. E. (1998). Analysis of genetic variability of South American wild rice populations (Oryza glumaepatula) with isozymes and RAPD markers. Molecular Ecology 7: 107–117.
Calvillo-Canadell, L. and Cevallos-Ferriz, S. R. S. (2002). Bauhcis moranii gen. et sp. nov. (Cercideae, Caesalpinieae), an Oligocene plant from Tepexi de Rodr
.guez, Puebla, Mex., with leaf architecture similar to Bauhinia and Cercis. Review of Palaeobotany and Palynology 122: 171–184.
Cardoso, M. A.; Provan, J.; Powell, W.; Ferreira, P. C. G. and De Oliveira, D. E. (1998). High genetic differentiation among remnant populations of the endangered Caesalpinia echinata Lam. (Leguminosae- Caesalpinioideae). Mol Ecol 7: 601–608.
Cardy, B. J. and Beversdorf, W. P. (1984). Identification of soybean cultivars using isoenzyme electrophoresis. Seed Science and Technology 12: 943–954.
Carlier, J. D.; Reis, A.; Duval, M. F.; Conppens, G. and Leitao, J. M. (2004). Genetic maps of RAPD, AFLP, and ISSR markers in Ananas bracteatus and Ananas comosus using the pseudo-testcross strategy. Plant Breeding 123: 186–192.
Carpenter, K. J. (2005). Stomatal architecture and evolution in basal angiosperms. Am j Bot 92(10): 1595–1615.
Chalmers, K. J.; Waugh, R.; Sprent, J. I.; Simons, A. J. and Powell, W. (1992). Detection of genetic variation between and within populations of Gliricidia sepium and G. maculata using RAPD markers. Heredity 69: 465–472.
Chamberlain, J. R. (1998). Isozyme variation in Calliandra calothyrsus (Leguminosae); its implication for species delimitation and conservation. Am j Bot 85: 37–47.
Chamberlain, J. R.; Galwey, N. W. and Simons, A. J. (1996). Population structure in Gliricidia sepium (Leguminosae) as revealed by isozyme variation. Silvae Genetica 45: 112–118.
Chase, M. R.; Boshier, D. H. and Bawa ,K. S. (1995). Population genetics of Cordia alliodora (Boraginaceae), a neotropical tree. 1. Genetic variation in natural populations. Am j Bot 82: 468–475.
Christophel, D. C. and Rowett, A. I. (1996). Leaf and cuticle atlas of Australian leafy Lauraceae. Flora Australian 6: 150–182.
Cronn, R.; Brothers, M.; Klier, K.; Bretting, P. K. and Wendel, J. F. (1997). Allozyme variation in domesticated sunflower and its wild relatives. Theoretical and Applied Genetics 95: 532–545.
Cronquist, A. (1968). The Evolution and Classification of Flowering Plants. Nelson and Sons, London.
Cronquist, A. (1981). An Integrated System of Classification of Flowering Plants. Colombia University Press. New York.
Cronquist, A. (1988). The Evolution and Classification of Flowering Plants second edition. The New York Botanical Garden, New York.
Dahlgren, R. (1983). A system of classification of the angiosperms to be used to demonstrated the distribution of characters. Bot Not 128: 119–147.
Davis, J. I. and Goldman, D. H. (1993). Isozyme variation and species delimitation among diploid populations of the Puccinellia nuttalliana complex (Poaceae): character fixation and the discovery of phylogenetic species. Taxon 42: 585–599.
Davis, J. I. and Nixon, K. C. (1992). Populations, genetic variation and the delimitation of phylogenetic species. Systematic Biology 41: 421–435.
Dawson, I. K. and Powell, W. (1999). Genetic variation in the Afromontane tree Prunus africana, an endangered medicinal species. Mol Ecol 8: 151–156.
De candolle, A. (1825). Systematic naturalis regne vegetalis Vol. 2, Paris.
Degen, B.; Caron, H.; Bandou, E.; Maggia, L.; Chevallier, M. H.; Leveau, A. and Kremer, A. (2001). Fine-scale spatial genetic structure of eight tropical tree species as analysed by RAPDs. Heredity 87: 497–507.
Diallo, B. O.; Joly, H. I.; Mckey, D.; Hossaert-Mckey, M. and Chevallier, M. H. (2007). Genetic diversity of Tamarindus indica populations: Any clues on the origin from its current distribution? African Journal of Biotechnology 6 (7): 853–860.
Dianxiang, Z. (1994). Leaf venation of Cercideae (Leguminosae). Journal of Tropical and Subtropical Botany 2 (4): 45–57.
Dilcher, D. L. (1974). Approaches to the identification of angiosperm leaves. Bot Rev 40: 1–157
Donner, T. J. and Scarpella, K. (2009). Auxin-transport-dependent leaf vein formation. Can J Bot 87 (7): 678–684.
Doyle, J. A.; Ballenger, E. E.; Dickson, T. K. and Ohashi, H. (1997). A phylogeny of the chloroplast gene rbcL in the Leguminosae: taxonomic correlations and insights into the evolution of nodulation. Am j Bot 84: 541–554.
Duke, J. A. (1949). Legume. Amaz Brazil., Bol. Tecn. Inst. Agron. De Northe. 18: 146–152.
Duke, J. A. (1980). Handbook of Legumes of World Economic Importanc. Plenum, New York.
Dunn, G. and Everitt, B. (1982). An Introduction to Mathematical Taxonomy. Cambridge. Newyork.
Edeoga, H. O. and Ikem, C. I. (2001). Comparative Morphology of the leaf epidermis in three species of Boerhavia (Nyetaginaceae). J Pl Anat Morph 1: 14−21.
Edeoga, H. O. and Osawe, P. I. (1996). Cuticular studies of some Nigerian species of Senna Tourn Ex Mill (Syn. Cassia Tourn ExL.); Leguminosae– Caesalpinioideae. Acta phytotax. Geo bot 47 (1): 41–46.
El-Azab, H. (2005). The pollen morphology of certain Leguminosae (Subfamily: Mimosoideae) and its sharing in the taxonomy of the studied taxa. Ph.D. Thesis, Botany Dep. Fac. of Sci. Ain Shams Univ. Egypt.
El-Gazzar, A.; El-Saied, A.; Hammouda, A. and Soliman, M. (2008). Computer-generated Keys to the Flora of Egypt. 1. The Leguminosae (Mimosoideae and Caesalpinioideae). Tackholmia 28: 185-208
Elisens, W. J. and Nelson, A. D. (1993). Morphological and isozyme divergence in Gambelia (Scrophulariaceae): species delimitation and biogeographic relationships. Systematic Botany 18: 454–468.
Emberger, L. (1960). Les vegetaux vasculaires. Tome Fascicule II : 1398–1406.
Engler, A. (1964). Syllabus Der Pflanzenfamilien. (II). Berlin.
Engler, A. and Diels, L. (1936). Syllabus Der Pflanzenfamilien Gebruder Brontrager. (II). Berlin.
Ettingshausen, C. V. (1861). Die Blattskelete des Dicotyledonen. K. Hof. Staatsdruckeri, Vienna
Fawzy, A. M. (2004). Rapd and Isozyme Study of the Newly Recorded Macroptilium Species in Egypt. Proceeding of First Conference on Strategy of Egyptian Herbaria March 9-11, pp 117-127, Giza, Egypt.
Ferzana, J.; Prabhakar, M. and Leelavathi, P. (1991). Folia architecture in relation to taxonomy of Malvales. Asian J Pl Sci 3 (2): 17–53.
Foster, A. S. (1952). Morphology and leaf venation of the leaf in Quiina acutangula Ducke. Am J Bot 37: 159–171.
Foster, A. S. and Gifford, Jr. E. M. (1974). Comparative Morphology of Vascular Plants. W.H. Freeman and Company, San Francisco.
Fukuda, H. (2004). Signals that control plant vascular cell differentiation. Nat Rev Mol Cell Biol 5: 379–391.
Gauthier, P.; Lumaret, R. and Beadea, A. (1998). Genetic variation and gene flow in Alpine diploid and tetraploid populations of Lotus (L. alpinus D.C.) Schleicher/L. corniculatus L). I. Insights from morphological and allozyme markers. Heredity 80: 683–693.
Gillies, A. C. M.; Cornelius, J. P.; Newton, A. C.; Navarro, C.; Hernandez, M. and Wilson, J. (1997). Genetic variation in Costa Rican populations of the tropical timber species Cedrela odorata L., assessed using RAPDs. Mol Ecol 6: 1133–1145.
Goebel, K. (1905). Organography of Plants. Part II. Oxford
Gorman, M. B. and Kiang, Y. T. (1977). Variety-species electrophoretic variants of four soybean enzymes. Crop Science 17: 963–965.
Gottlieb, L. D. (1977). Electrophoretic evidence and plant systematics. Ann Missouri Bot Gard 64: 161–180.
Graf, A. B. (1981). Color Cyclopedia of Exotic Plants and Trees for Warm Region Horticuture- in Cool Climate the Summer Garden of Sheltered Indoors. 2nd edition USA.
Gupta, P. K. and Rustgi, S. (2004). A review, molecular markers from the transcribed/expressed region of genome in higher plants. Functional Integrative Genomic 4: 139–162.
Guyot, M. (1971). Phylogenetic and systematic value of stoma in the umbillifereae. In: Heywood, V. H., The Biology and Chemistry of Umbelliferae. London: Academic Press.
Hall, P.; Chase, M. R. and Bawa, k. S. (1994). Low genetic variation but high population differentiation in a common tropical forest tree species. Conservation Biology 8: 471–482.
Hallier, H. (1912). L’origin et le systeme phyletique des angiospermes. Arch Neerl Sci Extact Nat Ser III B, 1: 146-334.
Hamrick, J. L. and Murawski, D. A. (1991). Levels of allozyme diversity in populations of uncommon neotropical tree species. Journal of Tropical Ecology 7: 395–399.
Hamrick, J. L. and Godt, M. J. W. (1989). Allozyme diversity in plant species. In: Brown, A.H.D.; Clegg, M.T.; Kahler, A.L. and Weir, B.S. (Eds.). Plant Population Genetics, Breeding and Genetic Resources. Sinauer Associates, Sunderland.
Harris, S. A.; Hughes, C. E.; Abbott, R. J. and Ingram, R. (1994). Genetic variation in Leucaena leucocephala (Lam) de Wit. (Leguminosae: Mimosoideae). Silvae Genetica 43: 159–167.
Haufler, C. H. (1987). Electrophoresis is modifying our concepts of evolution in homosporous pteridophytes. Am J Bot 74: 953–966.
Heaton, H. J.; Whitkus, R. and Gomez-Pompa, A. (1999). Extreme ecological and phenotypic differences in the tropical tree chicozapote (Manilkara zapota (L.) Royen P) are not matched by genetic divergence: a random amplified polymorphic DNA (RAPD) analysis. Mol Ecol 8: 627–632.
Hedegart, T. (1976). Tropical trees variation, breeding and conservation. In: Burley J, Styles BT (Eds.). Linnean Society Symposium Series No 2. Oxford University. pp. 109 –121.
Herendeen, P. S.; Bruneau, A. and Lewis, G. P. (2003). Phylogenetic relationships in caesalpinioid legumes: a preliminary analysis based on morphological and molecular data. Advances in legume systematics, part 10, pp.37–62. Royal Botanic Gardens, Kew, UK.
Hickey, L. J. (1971)b. Evolutionary significance of leaf architectural features in the woody dicots. Am J Bot 58: 469.
Hickey, L. J. (1973). Classification of the architecture of dicotyledonous leaves. Am J Bot 60: 17–33.
Hickey, L. J. (1979). A revised classification of the architecture of dicotyledonous leaves. In: Metcalfe, C.R. and Chalk, L., (eds). Anatomy of the dicotyledons, 2nd edn. Vol. I, Systematic anatomy of the leaf and stem. Oxford: Clarendon Press, pp. 25–39.
Hickey, L. J. and Taylor, D. W. (1991). The leaf architecture of Ticodendron and the application of foliar character in discerming its relationships. Ann Miss Bot Gard 78: 105–130.
Hickey, L. J. and Wolfe, J. A. (1975). The bases of angiosperm phylogeny: vegetative morphology. Annals of the Miss Bot Gard 62: 538–590.
Hollick, A. (1936). The tertiary floras of Alaska. U.S. Geol. Surv. Prof. Paper 182
Hong, S. P. and Oh, I. C. (1999). The taxonomic study of leaf epidermal microstructure in the genera Polygonum L. s. str. And polygonella Michx. (Polygoneae- Polygonaceae). Kor J Plant Tax 29:75–90.
Hong, S. P. and Son, S. P. (2000). The taxonomy consideration of leaf epidermal microstructure in the tribe Rumiceae Dum. (Polygonaceae. Kor J Plant Tax 30: 105–121.
Hutchinson, J. (1948). Classification of Flowering Plants. British Flowering Plants pp: 221–281 London.
Hutchinson, J. (1967). The Genera of Flowering Plants, Dicotyledons. pp 22–489. Oxford, the Clarendon press.
Hutchinson, J. (1973). The Families of Flowering Plants, 3rd ed. pp. 519–524. Oxford, the Clarendon press.
Hyland, B. P. M. (1989). A Revision of Lauraceae in Australia (excluding Cassytha). Australian J Syst Bot 2: 135–167.
Ipek, M.; Ipek, A. and Simon, P. W. (2003). Comparison of AFLPs, RAPD markers, and isozymes for diversity assessment of garlic and detection of putative duplicates in germplasm collection. Journal of the American Society for Horticulture Science 128: 246–252.
Irwin, H. S. and R. C. Barneby. 1981. The tribe Cassieae. in Advances in legume systematics, part 1. 97-106 (R. M. Polhill and P. H. Raven, eds.). Royal Botanic Gardens, Kew, UK.
Jaaska, V. (1997). Isoenzyme diversity and phylogenetic affinities in Vicia subgenus Vicia (Fabaceae). Genetic Resources and Crop Evolution 44: 557–574.
Jaaska, V. (2001). Isoenzyme diversity and phylogenetic relationships among the American beans of the genus Vigna Savi (Fabaceae). Biochemical Systematics and Ecology 29, 1153–1173
Jacobs, W. P. (1952). The role of auxin in the differentiation of xylem round a wound. Am J Bot 39: 327–337.
Jelani, S.; Leelavathi, P. and Prabhakar, M. (1990). Folia epidermis in relation to Taxonomy of Cleome (Capparaceae). Asian J Pl Sci 2(2):13–24.
Jensen, R. J. (1990). Detecting shape variation in Oak leaf morphology, a comparison of rotational fit methods. Am J Bot 77: 1279–1293.
Jesudass, L.; Manickam, V. S.; Irtudayaraj, V. and Gopalakrishan, S. (2003). Venation pattern of the genus Pteris (Pteridaceae) from the western Chats–South India. Phytomorphol 53: 29–36.
Jonathan, F. W. and Wendel, N. F. (1990). Visualization and interpretation of plant isozyme. In: Isozymes in Plant Biology. D. E. Sdtis and P.S. Sottis (eds). London Champan and Hall, pp. 5–45.
Kadiri, A. B. and Olowokudejo, J. D. (2008). comaparative foliar epidermal morphology of the west African species of the genus Afzelia Smith (Leguminosae: Caesalpinioideae). Gayana Bot 65(1): 84–92.
Kajtta, T.; Ohashi, H.; Tateishi, Y.; Bailey, C. D. and Doyle, J. J. (2001). rbcL and legume phylogeny, with particular reference to Phaseoleae, Millettieae, and allies. Systematic Botany 26: 515–536.
Kerner Von Marilaun, A. J. (1895). The Natural History of Plants. Oliver, F.W. (edt.). Vol. 1. Holt, New York.
Klaas, M. (1998). Applications and impact of molecular markers on evolutionary and diversity studies in Allium. Plant Breeding 117: 297–308.
Klucking, E. P. (1987). Leaf Venation Patterns Vol. 2. Gebruder Borntraeger, Verlagsbuchhandlung.
Kong, H. (2001). Comparative morphology of leaf epidermis in the Chloranthaceae. Botanical Journal of the Linnean Society 136: 279–294.
Kubitziki, K. (1993). The families and genera of vascular plants. Springer Verlag, Italy.
Kumar, A.; Tripathi, V. and Pushpangadan, P. (2007). Random amplified polymorphic DNA as marker for genetic variation and identification of Senna surattensis Burm, f. and Senna sulfurea DC. Ex Collad. Current Science 93(8).
Lakshmikumaran, M.; Srivastava, P. S. and Singh, A. (2001). Application of molecular technologies for genome analysis and assessment of genetic diversity in forest tree species. Oxford and IBH Publishing Co., New Delhi. pp. 153-181.
Lam, H. J. (1925). The Sapotaceae, Sarcospermaceae and Boerlagellaceae of the Dutch East Indies and sourrounding countries. Bull Jord Bot Buitenzorg III 8: 1–289.
Lange, O. and Shifino, M. T. (2000). Isozyme Variation in Wild and Cultivated Species of the Genus Trifolium L. (Leguminosae). Annals of Botany 86: 339–345.
Larmarque, A. L. & Fortunato, R. H. (2003). Taxonomic significance of seed protein profiles in Acacia, with special reference to Acacia emilioana. Australian Systematic Bot. 16 (1) 35-39.
LAWG, (1999). Manual of leaf Architecture. Morphological Description and Categorization of Dicotyledonous and net veined Monocotyledonous Angiosperms. Smithsonian Institution, Washington, D.C., USA.
Lawrence, G. H. M. (1951). Taxonomy of Vascular Plants. pp:545–549. Macmillan Company, New York.
Lee, C. T.; Wickneswari, R.; Mahani, M. C. and Zakri, A. H. (2002). Effect of selective logging on the genetic diversity of Scaphium macropodum. Biol Conser 104: 107–118.
Leelavathi, P.; Ramayya, N. and Prabhakar, M. (1980). Folia stomatal distributiob patterns in the Leguminosae and their taxonomic significance. Phytomorphology 30(2, 3): 195–204.
Léonard, J. (1957). Genera des Cynometreae et des Amhersteae africaines (Leguminosae-Caesalpinioideae). Esai de blastogénie appliquée à la systématique. Mém Acad Roy Sci Belgique Cl Sci 30: 1–312.
Lesquereux, L. (1878). Contributions to the fossil floras of the western Territories. Part II. The Tertiary Flora. U.S. Geol Geog Surv Terr Rept 7
Lewis, G. P.; Schrire, B. and Lock, M. (2005). Legumes of the World. Royal Botanical Gardens, Kew, UK. pp: 591.
Li, H. M. and Hickey, L. J. (1988). Leaf architecture and systematics of the Hamamelidaceae sensu lato. Acta Phytotaxonomica Sinica 26: 96–110.
Linnaeus, C. (1753). Species Plantarum. Vol. 1. Stokholm.
Loutfy, M. H. A.; Karakish, E. A. K.; Khalifa, S.F. and Mira, E. R. A. (2005). Numerical Taxonomic Evaluation of Leaf Architecture of Some Species of Genus Ficus L. International Journal of Agriculture and Biology 7(3): 352–357.
Lowe, A. J.; Gillies, A. C. M.; Wilson, J. and Dawson, I. (2000). Conservation genetics of bush mango from central/west Africa: implications from random amplified polymorphic DNA analysis. Mol Ecol 9: 831–841.
Lu, S.; Zhao, C. and Guo, X. (2009). Venation Skeleton-Based Modeling Plant Leaf Wilting. International Journal of Computer Games Technology, Volume 2009
Martins, M.; Tenreiro, R. and Oliveira, R. (2003). Genetic relatedness of Portuguese almond cultivars assessed by RAPD and ISSR markers. Plant Cell Reporter 22: 71–78.
Metcalfe, C. R. and Chalk, L. (1979). Anatomy of Dicotyledons. Vol. 1. Oxford.
Mattson, J.; Sung, Z. R. and Berleth, T. (1999). Responses of plant vascular systems to auxin transport inhibition. Development 126: 2979–2991.
Melchior, H. (1964). Engler's syllabus Pflanzenfamilien ed. 12: 26–30; 221–240.Berlin.
Melville, R. (1976). The terminology of leaf architecture. Taxon 25: 549–561.
Merriell, E. K. (1978). Comparison of mature leaf architecture of three types in Sorbus L. (Rosaceae). Bot Gaz 139: 447–453.
Mitchison, G. J. (1981). The polar transport of auxin and vein pattern in plants. Philos Trans R Soc London 295: 461–471.
Mohamed, A. H. (2006). Taxonomic Significance of Seed PProteins and Iso-enzymes in Tribulus (Zygophyllaceae). Int J Agri Biol 5: 573–575.
Montasir, A. H. and Hassib, M. (1956). Illustrated Manual Flora of Egypt. Bull Fac Sci Ain Shams Univ Part I, pp. 440–443.
Mouton, J. A. (1966). Sur la systematique foliaire en plaeobotanique. Bull Soc Bot (France), 113: 492–502.
NBPGR (2000). Manual on Exploration and Collection of Plant Genetic Resources and related Indigenous Knowledge. Agrobiodiversity (PGR)-5. National Bureau of Plant Genetic Resources, New Delhi, India. pp 63.
Nixon, K. C. and Wheeler, Q. D. (1990). An amplification of the phylogenetic species concept. Cladistics 6: 211–223.
Nualkaew, S.; Gritsanapan, W. and Suriyapananont, S. (1998). Comparison of isozyme patterns in Cassia species. 24. Congress on Science and Technology of Thailand, Bangkok.
Oliver, D. (1871). Flora of Tropical Africa. Ashford, Kent. Vol.II. pp: 258-312.
Pacheco-Trejo, J.; Terrazas, T. and Ochoterena, H. (2009). Leaf architecture of the genus Didymaea Hook. f. (Rubiaceae). Plant Syst Evol 281:137–149.
Paliwal, G. S. (1966). Structure Ontogeny of Stomata in some Acanthaceae. Phytomorphology 16: 527–532.
Park, K.–W. (1994). A taxonomy study of the Magnoliaceae. Res Rep For Res Inst 50: 173–190.
Peirce, L. C. and Brewbaker, J. L. (1973). Application of isozyme analysis in horticultural science. Hortscience 8: 17–22.
Pettigrew, C. J. and Watson, L. (1977). On the classification of Caesalpinioideae. Taxon 26 (1): 57–64.
Pollhill, R. M. and Raven, P. H. (1983). Advances in Legume Systematics. Parts 1 and 2. Royal Botanic Garden, Kew
Pollhill, R. M.; Raven, P. H. and Stirton, C. H. (1981). Evolution and systematics of the Leguminosae. In R. M. Polhill and P. H. Raven (Eds), Advances in Legume Systematics, Part 1. Royal Botanic Garden, Kew. pp: 1–26.
Post, G. E. (1932). Flora of Syria, Palestina and Sinai. American press Beirut I: 438–442.
Prabhakar, M. (2004). Structure, Delimitation, Nomenclature and Classification of Stomata. Acta Bot Sinica 46(2): 242–252.
Randell, B. R. (1976). The species of Cassia in Australia. Australian plants 8(68): 345–360.
Ray, T. S. (1992). Landmark eigenshape analysis: homologous cotours: leaf shape in Syngonium (Araceae). Am J Bot 79: 69–76.
Rendle, A. B. (1925). The clasification of flowering plants. Vol. II. Pp: 348-366. Cambridge. University press, England.
Rohlf, P. J. (1989). NTSYS-PC. Numerical Taxonomy and Multivariate Analysis Systems. New York: Exeter Publishing.
Roth-Nebelsick, A.; Uhl, D.; Mosbrugger, V. and Kerp, H. (2001). Evolution and Function of Leaf Venation Architecture: A Review Annals of Botany 87: 553–566.
Sack, L.; Cowan, P. D. and Holbrook, N. M. (2003). The hydrology of leaves: co-ordination of structure and function in temperate woody species. Plant, Cell and Environment 26:1343–1356
Samec, P.; Posvec, Z.; Stejskal, J.; Nasinec, V. and Griga, M. (1998). Cultivar identification and relationships in Pisum sativum L. based on RAPD and isozymes. Biologia Plantarum 41: 39–48.
Sanchez, E.; Ortiz, J.M. and Cenis, J.L. (1998). Identification of table grape cultivars (Vitis vinifera L.) by the isoenzymes from the woody stems. Genetic Resources and Crop Evolution 45: 173–179.
Scandalios, J. C. (1964). Tissue-specific isozyme variations in maize. J Hered 55: 281–285.
Schifino-Wittmann, M. T. and Lange, O. (1997). Isoenzymic characterization of native and cultivated forage legume species of Rio Grande do Sul (Southern Brazil). Proceedings of the XVIII International Grass- land Congress, Winnipeg, 47–48.
Schifino-Wittmann, M. T. and Schlegel, M. (1990). Isozyme patterns of Leucaena leucocephala, Leucaena diversifolia and their hybrids selected for acid soil tolerance. Leucaena Research Reports 11: 47–49.
Schifino-Wittmann, M. T.; Freitas, L. H. C. and Simioni, C. (1996). Isoenzymatic characterization of hybrids between Leucaena leucocephala and L. diversifolia subsp. diversifolia grown in Rio Grande do Sul (Southern Brazil). Brazilian Journal of Genetics 19: 475–478.
Schnabel, A, and Hamrick, J. L. (1990). Organization of genetic diversity within and among populations of Gleditsia triacanthos (Leguminosae). Am J Bot 77, 1060–1069.
Seetharam, Y. N. and Kotresha, K. (1998). foliar venation of some species of Bauhinia L. and Hardwickia binata Roxb. (Caesalpinioidea). Phytomorphology 48(1): 51–59.
Senna, H. (1943). The relation of anatomy and cytology to the classification of the Leguminosae. Chrom Bot 7: 306–308.
Shenglian, L.u.; Chunjiang, Z. and Xinyu, G. (2009). Venation Skeleton-Based Modeling Plant Leaf Wilting. International Journal of Computer Games Technology, Volume 2009.
Shipunov, A. B. (2007). The system of flowering plants from a synthetic point of view. J Gen Biol 64: 501–510.
Shipunov, A. B. (2009). Systema angiospermarum http://herba.msu.ru.shipunov/ang/current/syang.pdf
Sieburth, L. E. (1999). Auxin is required for leaf vein pattern in Arabidopsis. Plant Physiol 121: 1179–1190.
Siva, R. and Kirshnamurthy, K. V. (2005). Isozyme diversity in Cassia auriculata L. Afr J Biotechnol 4 (8): 772–775.
Skerman, P. J. (1977). Tropical Forage Legumes. Rome.
Smith, J. P. (1977). Vascular Plant Families. An Introduction to the Families of Vascular Plants Native to North America and Selected Families of Ornamental or Economic Importance Eureka, California.
Sneath, P. H. and Sokal, R. R. (1973). Numerical Taxonomy. Freeman, San Fransisco. p 573.
Sonnante, G.; Spinosa, A.; Marangi, A. and Pignone, D. (1998). Isozyme and RAPD analysis of the genetic diversity within and between Vigna luteola and V. marina. Annals of Botany 80: 741–746.
Stace, C. A. (1965). Cuticular studies as an aid to plant taxonomy. Bulletin of the British Museum (Natural History) Botany 4: 3–78.
Stebbins, G. L., and Khush, G. S. (1961). Variation in the organization of the stomatal complex in the leaf epidermis of monocotyledons and its bearing on their phylogeny. Am j Bot 48: 51–59.
Stegemann, H.; Afifiy, A. M. R. and Hussein, K. R. F. (1985). Cultivar Identification of dates (Phoenix dectylifera) by protein patterns. 2nd international Symposium of Biochemical Approaches to Identification of Cultivars. Braunschweig, West Germany, 44 pp.
Summerfield, R. J. and Bunting, A. H. (1980). Advances in Legume Science. Royal Botanic Gardens, Kew.
Sun, H.; Chen, J.; Zhou, Z. K. and Fei, Y. (1991). The leaf architecture and its taxonomic significance in the genera Albizia and Cylindrokelupha from China. Acta Botanica Yunnanica 13: 241–253.
Täckholm, V. (1956). Student’s Flora of Egypt. ed.1, Beirut
Täckholm, V. (1974). Student’s Flora of Egypt, ed. 2, Cairo University.
Takhtajan, A. (1980). Outline of the classification of flowering plants. Bot Rev 46(3): 225–359.
Takhtajan, A. (1997). Diversity and classification of flowering plants. Bot Rev 64: 240–272.
Taubert, P, (1894). Leguminosae. in A. Engler and K. Prantle, Nat. pflanzenfamilien III. 3: 70–338. Engelmann, Leipzig.
Taubert, P. (1891). Mimosoideae in A. Engler and K. Prantle, Nat. pflanzenfamilien III. 3: 99–125.
Testolin, R. and Ferguson, A. R. (1997). Isozyme polymorphism in the genus Actinidia and the origin of the kiwifruit genome. Systematic Botany 22: 685–700.
Thorne, R. F. (1992). Classification and geography of the flowering plants. Bot Review 58: 225–348.
Tiwari, D. N. (1992). A monograph on Teak. International Book Distributors, Dehradun.
Troll, W. (1938). Vergleichende Morphologie der höheren pflanzen. 1 (2). Borntraeger, Berlin. Reprinted, 1967, Koeltz Koenigstein–Taunus.
Uggla, C.; Moritz, T.; Sandberg, G. and Sundberg, B. (1996). Auxin as a positional signal in pattern formation in plants. Proc Nat Acad Sci USA 93: 9282–9286.
Uma, S.; Sudha, S.; Saraswathi, M. S.; Nickavasagam, M.; Selvarajam, R., Durai, P., Sathiamoorthy, S., Siva, A.S., 2004. Analysis of genetic diversity and phylogenetic relationships among indigenous and exotic Silk (AAB) group of bananas using RAPD markers. Journal of Horticultural Science and Biotechnology 79: 523–527.
Upchurch, G. R. (1995). Dispersed angiosperm cuticles: their history, preparation, and application to the rise of angiosperms in Cretaceous and Paleocene coals, southern western interior of North America. International Journal of Coal Geology 28: 161–227.
Van Cotthem, W. R. J. (1970). A classification of stomatal types. Botanical Journal of the Linnean Society 63: 235–246.
Van Cotthem, W. R. J. (1970)a. Comparative morphological study of the stomata in the Filicopsida. Bull Jard Bot Nat Belg 40: 81–239.
Wang, Y. F.; Ferguson, D. K.; Zetter, R.; Denk, T. and Garfi, G. (2001). Leaf architecture and epidermal characters in Zelkova, Ulmaceae. Botanical Journal of the Linnean Society 136: 255–265.
Wang, X.; Mao, Z.; Choi, K. and Park, K. (2006). Significance of the leaf epidermis fingerprint for taxonomy of Genus Rhododendron. Journal of Forestry Research 17(3): 171–176.
Watson, L. and Dallwitz, M. J. (1983). The Genera of Leguminosae, Caesalpinioideae. pp. 397 Cambridge Univ. Press.
Welsh, J. and McCleland, M. (1990). Fingerprinting genomes using PCR with arbitrary primers. Nucleic Acid Reasearch 18(24): 7231–7218.
Wendel, J. F. and N. F. Weeden (1989). Visualization and interpretation of plant isozymes. In: Isozymes in Plant Biology. Soltis D. E. and P. S. Soltis (eds). Chapman and Hall Publishers, London. P. 18.
Whitty, P. W.; Powell, W. and Sprent, J. I. (1994). Molecular separation of genera in Cassiinae (Leguminosae), and analysis of variation in the noulating species of Chamaecrista. Molecular Ecology 3: 507–515.
Wilkinson, H. P. (1979). The plant surface. In C. R. Metcalfe and L. Chalk [eds.], Anatomy of the dicotyledons, 2nd ed., vol. 1, 97–165. Clarendon Press, Oxford, UK.
Williams, J. G. K.; Kubelik, A. R.; Livak, K. J.; Rafalski, J. A. and Tingey, S. V. (1990). DNA polymorphism amplified by arbitrary primers are useful as genetic markers. Nucleic Acids Research 18(22): 6531–6535.
Willis, J. C. (1966). A Dictionary of Flowering Plants and Ferns (revised by H. K. Airy show), Ed. 7: 627-631 Cambridge university Press.
Wojciechowski, M. F., Lavin, M. and Sanderson, M. J. 2004. A phylogeny of legumes (Leguminosae) based on analysis of the plastid matK gene resolves many well-supported subclades within the family. Am J Bot 91: 1846-1862.
Wunderlin, R.; Larsen, K. and Larsen, S. S. (1981). Cercideae. Pages 107-116 in Advances in legume systematics, part 1 (R. M. Polhill and P. H. Raven, eds.). Royal Botanic Gardens, Kew, UK.
Wunderlin, R.; Larsen, K. and Larsen, S. S. (1987). Reorganizaztion of the Cercideae (Fabaceae: Caesalpinioideae). Biol Skr 28: 1–40.
Yamagishi, M.; Matsumoto, S.; Nakatsuka, A. and Itamura, H. (2005). Identification of persimmon (Diospyros kaki) cultivars and phonetic relationships between Diospyros species by more effective RAPD analysis. Scientia Horticulture 95: 361–371.
Yan, L. and Zhe-Kun, Z. (2002). Leaf architecture in Quercus subgenus Cyclobalanopsis (Fagaceae) from China. Botanical Journal of the Linnean Society 140: 283–295.
Yasmin, G.; Ajabkhan, M.; Shaheen, N. and Hayat, M. (2010). Micromorphological investigation of foliar anatomy of Fagopyrum Mill. and Rumex L. of Polygonaceae. Pak J Bot 42(1): 47-57.
Yu, C. and Chen, Z. (1991). Leaf Architecture of the Woody Dicotyledons from Tropical and Subtropical China. International Academic publishes, Beijing.
Zahuang, F. Y.; Chen, J. F.; Staub, J. E. and Qian, T. (2004). Assessment of genetic relationships among Cucumis spp. by SSR and RAPD marker analysis. Plant Breeding 123: 167–172.
Zhou, Z. K. and Li, H. M. (1994). Implication of the leaf architecture for systematic studies of Chloranthaceae from China. Chinese Journal of Botany 6: 12–18.
Zhou, Z. K.; Wilkinson, H. and Wu, Z. Y. (1995). Taxonomical and evolutionary implications of the leaf anatomy and architecture of Quercus L. subgenus Quercus from China. Cathaya 7: 1– 34.
Zobel, B. and Talbert, J. (1984). Applied forest tree improvement. John Wiley and Sons. pp. 505.
Zou, P.; Liao, J. and Zhang, D. (2008). Leaf epidermal micromorphology of Cercis (Fabaceae: Caesalpinioideae). Botanical Journal of the Linnean Society 158: 539–547.
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